The Addition of Methyl Hypochlorite to Phenylacetylene

April, 1934

THEADDITION OF METHYL HYPOCHLORITE TO PHENYLACETYLENB

977

The Addition of Methyl Hypochlorite to Phenylacetylene BY ERNESTL. JACKSON The reaction of ethyl hypochlorite with phenylacetylene in carbon tetrachloride solution was shown by Goldschmidt, Endres and Dirsch' to yield only w,w-dichloroacetophenonewhich apparently resulted from the addition of hypochlorous acid to the triple bond of the unsaturated compound. The intermediate formation of the diethyl ketal by the addition of ethyl hypochlo, rite, however, was considered possible, but the easy hydrolysis of .the ketals by hydrochloric acid was thought t o preclude its isolation under their experimental conditions. The addition of ethyl hypochlorite to phenylacetylene might possibly be accomplished by its reaction with chlorine and absolute ethyl alcohol in the manner described in a previous paper2 for the addition of ethyl hypochlorite to cinnaniic acid, but as shown this method is complicated by a number of side reactions and the yield would probably be very low. The addition of methyl hypochlorite to phenylacetylene through its reaction with chlorine and absolute methyl alcohol, however, seemed feasible in view of our successful application3 of this reaction to certain ethylene derivatives. T have accordingly investigated this method and have found that phenylacetylene reacts quite readily with chlorine and absolute methyl alcohol to give about a 70% yield of the beautifully crystalline methyl hypochlorite addition product. The reaction was carried out by introducing dry chlorine into an efficiently stirred solution of phenylacetylene in anhydrous methyl alcohol at room temperature, no precautions being taken to neutralize the hydrochloric acid which was formed along with methyl hypochlorite by the interaction of chlorine and methyl alcohol. The pure product melted at 6G0 and proved to be phenyldimethoxydichloroethane, showing that two molecules of methyl hypochlorite combined with a molecule of phenylacetylene. Since the dimethoxy compound is hydrolyzed by hot 0.4 N hydrochloric acid to yield updichloroacetophenone i t must be 1-phenyl-1,l -d.imethoxy-2,2-dichloroethane.

Experimental Part Reaction of Phenylacetylene with Chlorine and Absolute Methyl Alcohol.---A moderately rapid stream of chlorine, f l ) Goldschmidt. Rndres and Dirsch, Bcr., 58, 572 (1925). (2) Jackson and Pasiut, THISJOURNAL, 49, 2071 (1927). (3) Jackson, ibid , 48, 2166 (1926).

dried by passing through concentrated sulfuric acid, was introduced into a thoroughly stirred solution of 11 g. of phenylacetylene (b. p. 142-144') in 100 cc. of anhydrous methyl alcohol a t room temperature. The reaction solution was protected from atmospheric moisture by a calcium chloride drying tube. The absorption of chlorine was rapid and the reaction was accompanied by a moderate rise in temperature. After the solution had ceascd to absorb chlorine, which was shown by a test with starch-potassium iodide paper, it was neutralized with silver carbonate, the silver chloride was filtered off and washed with methyl alcohol. Concentration of the filtrate under reduced pressure to about 50 cc. yielded 15.8 g. of colorless crystals melting a t 63-64', The mother liquor was concentrated under reduced pressure to a small volume and finally allowed to evaporate spontaneously to dryness. The resulting crystals were separated from some oil by suction filtration and washed with a little cold methyl alcohol. The second crop weighed 2.2 g. and melted a t 62-63 ', the total yield being 71 of the theoretical. One recrystallization from absolute methyl alcohol gave the pure compound which, after drying in an evacuated desiccator over calcium chloride, melted a t 66-66.5" (uncorr.). Methoxyl and chlorine determinations showed the substance to be phenyldimethoxydichloroethane. AnaZ.4 Calcd. for C&Cl$(OCH3)2: C1, 30.2. Found: OCH,, 26.1; C1, 29.9.

OCHa, 26.4;

The compound is easily soluble in benzene, chloroform and ether, soluble in cold absolute methyl alcohol and insoluble in cold water. It crystallizes readily from absolute methyl alcohol as colorless flat prisms. The pure crystals possess a faint odor resembling that of camphor and the camphor-like odor is considerably more marked when the substance, apparently undecomposed, is in the molten state. Structure of the Dimethoxy Compound.--A suspension of 5 g. of pure compound in 100 cc. of N aqueous hydrochloric acid solution, to which was added 150 cc. of absolute methyl alcohol, was heated on the steam-bath under a reflux condenser and shaken until the substance was in solution. After refluxing for ten hours it was neutralized to phenolphthalein with sodium hydroxide solution and extracted thoroughly with benzene. The benzene solution was dried over anhydrous sodium sulfate and the solvent was distilled off under reduced pressure, yielding a somewhat lachrymatory oil, most of which distilled a t 131132" (11 mm.).

Anal. Calcd. for CsHeOC12: C1, 37.5. Found: C1, 37.0. Oxidation of some of the oil with hot alkaline potassium permanganate solution gave benzoic acid; m . p. 121'. The reaction of the oil, prepared from 1 g. of dimethoxy compound, with 0.7 g. of hydroxylamine hydrochloride in alkaline aqueous alcohol solution by Schramm'sj (4) I am indebted t n Mr. H. W . Williams of Cleveland, Ohio. for the analyses. (6) Schramm, Bcr., 16, 2186 (1883); Russanow, ibid., 14, 3407 (1891).

ROBERTE. LUTZAND FRANK N. WILDER

97s

procedure yielded phenylglyoxime which, after two recrystallizations from chloroform, melted a t 168' alone or mixed with authentic phenylglyoxime prepared from o,w-dibrorrioacetophenone. This shows the oil to bc w,w-dichloroacetophenoneand the dimethoxy compound In acto be l-phenyl-l,l-dimethoxy-2,2-dichloroethane. cord with this structure the dimethoxy compound is stable toward potassium hydroxide in methyl alcohol solution. By refluxing a solution of 1 g. of pure compound and 3 g of potassium hydroxide in 15 cc. of absolute methyl alcohol for four hours, evaporating the solvent and extracting the potassium hydroxide from the residue with cold

[CONTRIBUTIONNO. 124 FROM

THE

Vol. 56

distilled water, 85% of the pure dimethoxy compound was recovered.

Summary Phenylacetylene reacts rapidly with chlorine and absolute methyl alcohol to produce about a 70% yield of 1-phenyl-1,1-dimethoxy-2,2-dichloroethane of m. p. 66") which is evidently formed by the addition of two molecules of methyl hypochlorite to the triple bond of the unsaturated compound. RECEIVED JANVARY 12, 1931

WASHINGTON, D. C.

COBB CHEMICAL LABORATORY, UNIVERSITY O F VIRGINIA]

The Nitric Acid Oxidation of 2,SDiphenylfurans to Cis Unsaturated 1,4-Diketones BY ROBERTE. LUTZAND FRANK N. WILDER The nitric-acetic acid oxidation of cr,cu'diphenylfurans to unsaturated 1,4-diketones is a reaction which proceeds easily with good yields and which promises to be of value in synthesis and also in the determination of structure of certain furans and the configurations of unsaturated 1,4diketones. The method was first used by Zinin in the preparation of cis dibenzoylstilbene from tet raphenylfuran. We have applied the method with very satisfactory results to 2,5-diphenylfuran (I) and to the 3,4-dichloro and dibromo derivatives, and have obtained in each case in good yields, respectively, cis dibenzoylethylene (11) and cis dibenzoyl dichloro and dibromo ethylenes, the configurations of which are known.2

opens, since otherwise a mixture of cis and trans, or more likely the stable trans isomer alone, would be expected. There is evidence that furans add nitric acid or its equivalent 1,4 to give intermediates which lose water or its equivalent to give n i t r o f ~ r a n s . ~It seems very likely that here also 1,4 addition occurs, but that loss of water or its equivalent from the resulting intermediate IV being impossible, nitrous acid is eliminated instead, giving the cis unsaturated 1,4 diketone in some such way as

x I

C-C

It

Arc

x

x "0s

1 1 - 1

CAr

x

I

C=C Arc

1 I

CAr

CaHaCO COCeH6

I1

Mention should be made here also of the oxidation by this method of di- (bromophenyl) -dichloro and dibromofurans and of triphenylfuran to the corresponding cis unsaturated 1,4-diketones3 I n all1 of these seven instances the reaction between nitric acid and the furan has proceeded without exception exclusively in a consistent stereochemical sense to give the unsaturated 1,4diketone of cis configuration. This indicates that the double bond is established by readjustment of the furan double linkages before the ring (1) Ziniu, J. prakt. Chcm., [I] 101, 164 (1867); cf. also Japp and Klingemann, J . Chem. Soc., 67,675 (1890). (2) Cf.Lutz, THISJOURNAL, I S , 3405, 3423 (1930). 13) See ]more extensive studies involving these compounds, to be published r,hortly.

I

I n this mechanism the system

~

Arc

CAr

V

IV

111

I

-

x x 1 1 c-c

\/ \/ G-c-cb-c of i

NO2

H

I V may be regarded as losing the elements of nitrous acid 1,4, generating two new double bondsj5 o=c \/ o=c v, and forming the highly conjugated unsaturated l,4-diketone V. The latter factor probably in any case constitutes some measure of the driving force of the reaction. It is also possible that the intermediate IV, if formed, undergoes rearrangement into an open caHsco(x)=c(x)

chain

compound,

c(OH) CeHs

NO2

(4) Freure and Johnson, THISJ O U R N A L , 63, 1142 (1931); Shepard and Johnson, ibid., 64, 4385 (1932). \/ I \/ ( 5 ) Cf.Loss of hydrogen chloride from the system C-L=C-C

I

[Thiele, A n n . , 306, 109 (189Q)l.

X

I

H